JP3196200U - Soaking plate support structure - Google Patents

Soaking plate support structure Download PDF

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JP3196200U
JP3196200U JP2014006603U JP2014006603U JP3196200U JP 3196200 U JP3196200 U JP 3196200U JP 2014006603 U JP2014006603 U JP 2014006603U JP 2014006603 U JP2014006603 U JP 2014006603U JP 3196200 U JP3196200 U JP 3196200U
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plate
support
plate body
support structure
chamber
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勝煌 林
勝煌 林
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奇▲こう▼科技股▲ふん▼有限公司
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Abstract

【課題】均温板支持体構造を提供する。【解決手段】均温板支持体構造1は、第1板体2、第2板体3及び支持部材4及び作動流体を含み、そのうち、第1板体2及び第2板体3の間にチャンバを形成し、支持部材4は、チャンバ内に設置され、支持部材4は、少なくとも1つの基部41及び複数の支持部42から構成され、支持部42材上に複数の通路43を形成し、作動流体は、チャンバ内に充填され、且つ流路に流通される。均温板支持体構造1は、従来の均温板が圧力を受けて圧縮変形するか、底部平面度が制御し難い等の問題を解決する以外に、製造工程時間を節減し、熱伝導効率を向上する等の利点を有する。【選択図】図1A temperature equalizing plate support structure is provided. A temperature equalizing plate support structure 1 includes a first plate body 2, a second plate body 3, a support member 4, and a working fluid, of which a gap between the first plate body 2 and the second plate body 3 is provided. Forming a chamber, the support member 4 is installed in the chamber, the support member 4 is composed of at least one base portion 41 and a plurality of support portions 42, and forms a plurality of passages 43 on the support portion 42 material; The working fluid is filled in the chamber and circulated in the flow path. The soaking plate support structure 1 reduces the manufacturing process time and reduces the heat conduction efficiency in addition to solving problems such as the conventional soaking plate being compressed and deformed under pressure, or the bottom flatness being difficult to control. It has the advantage of improving. [Selection] Figure 1

Description

本考案は、均温板に関し、特に、支持度を向上し、製造コストを低減することができる均温板支持体構造に関する。 The present invention relates to a temperature equalizing plate, and more particularly, to a temperature equalizing plate support structure capable of improving the degree of support and reducing the manufacturing cost.

現在のモバイル装置、パソコン、サーバ、通信機器又はその他のシステム又は装置は、何れも演算性能の向上に伴って、その内部の演算素子が発生する熱量も向上し、従って、相対して更に放熱ユニットによりその放熱を補助する必要があり、絶大多数の業者は、ヒートシンク、熱管、均温板等の放熱素子を選択してファンを組み合わせ、放熱の補助を行い、大面積に放熱を行う必要がある時、選択した均温板が吸熱し、ヒートシンク及び放熱ファンを組み合わせて強制放熱を行い、各放熱部材間を緊密に貼合して熱的現象の発生を防止し、均温板は、扁平状板体であり、内部に気液循環を提供するチャンバを設置し、熱伝導を行い、扁平状の均温板が圧力又は熱を受けた後に膨張又は変形を発生することを防止する為、チャンバ内に複数の支持柱体を設置し、支持均温板のチャンバとして使用する。 As for the current mobile devices, personal computers, servers, communication devices or other systems or devices, as the calculation performance improves, the amount of heat generated by the internal calculation elements also increases, and accordingly, the heat dissipation unit further increases. It is necessary to assist the heat dissipation, and the vast majority of contractors need to select heat dissipation elements such as heat sinks, heat tubes, temperature equalizing plates, etc., combine fans, assist heat dissipation, and dissipate heat over a large area When the selected temperature plate absorbs heat, the heat sink and heat radiating fan are combined to forcibly radiate heat, and the heat radiating members are tightly bonded to prevent the occurrence of a thermal phenomenon. A chamber that is a plate body that provides gas-liquid circulation inside, conducts heat, and prevents the flat temperature equalizing plate from expanding or deforming after receiving pressure or heat. Multiple in It established the Jihashiratai, used as a chamber of the support Hitoshi Yutakaban.

均温板は、面と面の熱量伝達であり、前記説明において、均温板が熱を受けて膨張するか、外力を受けて変形することを防止する為に複数の支持柱体を設置するが、プロセス上には、別途製造工程時間及び製造コスト(支持柱体)を増加する必要があり、且つ複数の銅柱外部に焼結リングを組み合わせることを選択し、導柱を支持作用とする場合、焼結リングは、ただ回流循環を行い、その底部平面度の制御が容易でなく、又は、複数溝の銅柱を使用し、該複数溝の銅柱を支持と回流循環の作用とする場合も、その底部平面度は、同じく制御が容易でなく、又は、板体上に前記支持柱体及び/又は蒸気通路又は流路を直接エッチングする場合は、エッチング時に必要な時間が増対して増加し、更に、深さが深くなるほど、加工時間が長く、且つ洗浄、乾燥等の工程を経る必要があり、相対してその製造工程時間を増加させる。   The temperature equalizing plate is a heat transfer between the surfaces, and in the above description, a plurality of support pillars are installed to prevent the temperature equalizing plate from receiving heat and expanding or being deformed by receiving external force. However, it is necessary to increase the manufacturing process time and the manufacturing cost (support column) separately in the process, and select to combine a sintered ring outside a plurality of copper columns, and the guide column is used as a support function. In this case, the sintered ring simply performs circulation circulation, and its bottom flatness cannot be easily controlled, or a plurality of grooved copper pillars are used, and the plurality of grooved copper pillars serve as a support and circulation circulation action. Even in this case, the bottom flatness is not easily controlled, or when the support column and / or the vapor passage or the channel is directly etched on the plate, the time required for the etching is increased. Increasing, and the deeper the depth, the longer the processing time, and It is necessary to go through steps such as washing and drying, which increases the manufacturing process time.

故に、従来技術は、変形等の問題を解決することが困難であり、製造工程時間、コストを増加し、底部平面度の制御が容易でない等の問題があり、依然として如何にして製造コストを低減するかという問題に検討を行う必要がある。   Therefore, it is difficult for conventional technology to solve problems such as deformation, increasing the manufacturing process time and cost, and controlling the bottom flatness is not easy. It is necessary to examine the problem of whether to do it.

登録実用新案第3186291号公報Registered Utility Model No. 3186291

そこで、上記問題を解決する為、本考案の目的は、第1板体、第2板体、支持部材及び作動流体を含み、該第1板体は、第1側及び第2側を有し、該第2板体は、前記第1板体を被せ合わせ、且つ該第2板体は、第3側及び第4側を有し、該第3側及び該第2側の間にチャンバを形成し、また、該支持部材は、前記チャンバ内に設置され、且つ該支持部材は、少なくとも基部及び複数の支持部を有し、該支持部の間は、複数の相互に連通する通路を形成し、該作動流体は、前記チャンバ内に充填され、且つ前記第1通路及び第2通路を流通し、本考案の均温板支持体構造は、スタンピングによりその支持構造を形成して製造工程時間を節減し、熱伝導効率等の効果を向上することができる以外に、従来の気温板が圧力を受けて圧縮変形するか、底部の平面度が制御し難い等の問題を解決することができる均温板支持構造を提供することにある。   Therefore, in order to solve the above problem, an object of the present invention includes a first plate body, a second plate body, a support member, and a working fluid, and the first plate body has a first side and a second side. The second plate covers the first plate, and the second plate has a third side and a fourth side, and a chamber is provided between the third side and the second side. The support member is disposed in the chamber, and the support member has at least a base and a plurality of support portions, and a plurality of mutually communicating passages are formed between the support portions. The working fluid is filled in the chamber and flows through the first passage and the second passage, and the temperature equalizing plate support structure of the present invention forms the support structure by stamping to produce a manufacturing process time. In addition to improving heat transfer efficiency and other effects, can the conventional temperature plate be compressed and deformed under pressure? And to provide a HitoshiAtsushiban supporting structure capable of flatness of the bottom solution to problems such as difficult to control.

本考案の均温板支持体構造は、第1側及び第2側を有する第1板体と、前記第1板体に組み付けられ、且つ第3側及び第4側を有し、該第3側及び第2側の間にチャンバを形成する第2板体と、前記チャンバ内に設置され、基部及び複数の支持部を形成し、該支持部の間に複数の相互に連通する通路を形成する支持部材と、を含む。   The temperature equalizing plate support structure of the present invention has a first plate body having a first side and a second side, and is assembled to the first plate body, and has a third side and a fourth side. A second plate that forms a chamber between the side and the second side, and a base and a plurality of support portions that are installed in the chamber, and a plurality of mutually communicating passages are formed between the support portions. And a supporting member.

本考案の均温板支持体構造は、第1板体、第2板体及び支持部材及び作動流体を含み、そのうち、該第1板体及び第2板体の間にチャンバを形成し、前記支持部材は、前記チャンバ内に設置され、該支持部材は、少なくとも1つの基部及び複数の支持部から構成され、該支持部材上に複数の通路を形成し、該作動流体は、前記チャンバ内に充填され、且つ前記流路に流通され、本考案の均温板支持体構造は、従来の均温板が圧力を受けて圧縮変形するか、底部平面度が制御し難い等の問題を解決する以外に、製造工程時間を節減し、熱伝導効率を向上する等の利点を有する。   The temperature equalizing plate support structure of the present invention includes a first plate body, a second plate body, a support member, and a working fluid, wherein a chamber is formed between the first plate body and the second plate body, A support member is installed in the chamber, and the support member includes at least one base portion and a plurality of support portions, and forms a plurality of passages on the support member, and the working fluid is placed in the chamber. The soaking plate support structure of the present invention is filled and circulated through the flow path, and solves problems such as the conventional soaking plate being compressed and deformed under pressure, or the bottom flatness being difficult to control. In addition, there are advantages such as saving manufacturing process time and improving heat conduction efficiency.

本考案の均温板支持体構造の第1実施例の立体分解図である。It is a three-dimensional exploded view of the first embodiment of the temperature equalizing plate support structure of the present invention. 本考案の均温板支持体構造の第1実施例の局部説明図である。It is local explanatory drawing of 1st Example of the temperature equalizing plate support body structure of this invention. 本考案の均温板支持体構造の第1実施例の断面説明図である。It is sectional explanatory drawing of 1st Example of the temperature equalizing plate support body structure of this invention. 本考案の均温板支持体構造の第2実施例の立体分解図である。It is a three-dimensional exploded view of the second embodiment of the temperature equalizing plate support structure of the present invention. 本考案の均温板支持体構造の第2実施例の断面説明図である。It is sectional explanatory drawing of 2nd Example of the temperature equalizing plate support body structure of this invention. 本考案の均温板支持体構造の第3実施例の立体分解図である。It is a three-dimensional exploded view of a third embodiment of the temperature equalizing plate support structure of the present invention. 本考案の均温板支持体構造の第3実施例の局部説明図である。It is local explanatory drawing of 3rd Example of the temperature equalizing plate support body structure of this invention.

本考案の上記目的及びその構造と機能上の特性について、図面に基づく好適実施例を挙げ、以下に説明する。   The above object of the present invention and its structural and functional characteristics will be described below with reference to preferred embodiments based on the drawings.

図1、図2及び図3を参照し、それは、本考案の均温板支持体構造の第1好適実施例の立体分解図、局部説明図及び断面説明図であり、図に示すように、前記均温板支持体構造1は、第1板体2、第2板体3、支持体4及び作動流体5を含む。   1, 2, and 3, which are a three-dimensional exploded view, a local explanatory view, and a cross-sectional explanatory view of a first preferred embodiment of the soaking plate support structure of the present invention. The soaking plate support structure 1 includes a first plate body 2, a second plate body 3, a support body 4 and a working fluid 5.

そのうち、前記第1板体2は、第1側21及び該第1側21に相反する第2側22を有し、該第2板体3は、第3側31及び該第3側31に相反する第4側32を有し、そのうち、該第2板体3は、前記第1板体2上に組み付けられ、且つその第1板体2は、前記第2側22から前記第2板体3の第3側31方向へ組み付けられ、その第1板体2の第2側22の箇所に凹溝221を形成し、その第2側22及び第3側23の間にチャンバ33を形成させ、且つ該第1板体2及び第2板体3は、金属板体であり、前記第1板体2及び第2板体3は、銅材質、アルミ材質、銅箔にグラファイトを加えた構成部材、又は導熱が良好な導体の何れか1つであり、本実施例は、銅材質により実施例を説明するが、これに限定するものではない。 Among them, the first plate body 2 has a first side 21 and a second side 22 opposite to the first side 21, and the second plate body 3 is arranged on the third side 31 and the third side 31. The second plate body 3 is assembled on the first plate body 2, and the first plate body 2 is connected to the second plate 22 from the second side 22. Assembling in the direction of the third side 31 of the body 3, a concave groove 221 is formed at a location on the second side 22 of the first plate 2, and a chamber 33 is formed between the second side 22 and the third side 23. The first plate body 2 and the second plate body 3 are metal plate bodies, and the first plate body 2 and the second plate body 3 are made of copper material, aluminum material, and graphite added to copper foil. Any one of a constituent member and a conductor having good heat conduction will be described, and this embodiment will be described by using a copper material, but the embodiment is not limited thereto.

前記支持部材4は、前記チャンバ33に設置され、且つ前記凹溝221内に相対して収容され、該支持部材4は、スタンピング、フライス、鋳造又はその他の機械加工方式で成形されることができ、本実施例中の該支持部材は、スタンピング方式を選択して一体に成形してなり、その支持部材は、少なくとも1つの基部41及び複数の支持部42をスタンピング形成し、且つその基部41及び支持部42の相互の設置位置及び形状は、要求に応じてスタンピング成形することができ、そのうち、該基部41は、本実施例において、交叉網状を呈する板体であり、且つ一側が水平方式で前記第3側31を貼付され、且つ該基部41は、前記支持部材4の両側領域に設置され、一部分の支持部42は、方形方式で呈現され、且つ前記基部41から延伸して接続され、他部分のストリップ形支持部42は、前記支持部材4の中央領域に設置され、且つ端縁がそれぞれ側辺の基部41を延伸し、その両側箇所の方形支持部42及び中央のストリップ形支持部42の間に複数の相互に連通する通路43を形成し、前記支持部42及び前記第1板体2の間に第1毛細構造44を有し、該第1毛細構造44は、前記凹溝221内に設置され、且つ前記第1板体2及び該支持部材4の間に相対設置され、該第1毛細構造44は、前記凹溝221内に設置され、且つ前記第1板体2及び該支持部材4の間に相対設置され、該第1毛細構造44一側は、前記第2側22に貼付され、他側は、前記支持部42に貼付され、該第1板体2及び第2板体3の互いに接続する箇所は、密封溶接を行い、その後、前記チャンバ33内に作動流体5を充填し、そのチャンバ33内に真空吸引し、密閉し、即ち、前記均温板支持体構造1に組み合わせることができ、そのうち、前記支持部材4は、前記基部41及び支持部42を直接スタンピング成形し、前記チャンバ33内は、基部41及び支持部42によりその第1板体2及び第2板体3を有効に支持すると同時に、第1毛細構造44により作動流体5の吸着循環の効果を達成することができ、これにより、その支持構造をスタンピング成形して製造工程時間を節減し、熱伝導効率を向上する効果を達成する以外に、従来の均温板が圧力を受けて圧縮変形するか、底部平面度が制御し難い等の問題を解決することができる。 The support member 4 is installed in the chamber 33 and is accommodated in the concave groove 221 so that the support member 4 can be formed by stamping, milling, casting, or other machining methods. The support member in the present embodiment is integrally formed by selecting a stamping method, and the support member is formed by stamping at least one base portion 41 and a plurality of support portions 42, and the base portion 41 and The mutual installation position and shape of the support portions 42 can be stamped according to demands. Among them, the base portion 41 is a plate body having a crossed net shape in this embodiment, and one side is horizontal. The third side 31 is affixed, and the base portion 41 is installed in both side regions of the support member 4, and a part of the support portion 42 is expressed in a square manner, and from the base portion 41 The strip-shaped support portions 42 of the other parts are installed in the center region of the support member 4 and the edges extend from the base portions 41 of the side sides, and the rectangular support portions 42 and A plurality of mutually communicating passages 43 are formed between the central strip-shaped support portions 42, and a first capillary structure 44 is provided between the support portions 42 and the first plate 2, and the first capillary structure 44 is installed in the concave groove 221 and is relatively installed between the first plate body 2 and the support member 4, and the first capillary structure 44 is installed in the concave groove 221, and Relatively installed between the first plate 2 and the support member 4, one side of the first capillary structure 44 is affixed to the second side 22, and the other side is affixed to the support part 42. The locations where the first plate 2 and the second plate 3 are connected to each other are hermetically welded, and then the front The chamber 33 is filled with the working fluid 5, vacuumed and sealed in the chamber 33, that is, can be combined with the temperature equalizing plate support structure 1, and the support member 4 includes the base 41. The support portion 42 is directly stamped and formed, and the first and second plate bodies 2 and 3 are effectively supported in the chamber 33 by the base portion 41 and the support portion 42, and at the same time, the working fluid is provided by the first capillary structure 44. In addition to achieving the effect of reducing the manufacturing process time and improving the heat conduction efficiency by stamping molding the supporting structure, the conventional temperature equalizing plate can be achieved. It is possible to solve problems such as compression deformation due to pressure, or difficulty in controlling bottom flatness.

図4及び図5に示すように、それは、本考案の均温板支持体構造の第2実施例の立体分解図、断面説明図であり、図に示すように、本実施例の一部の構造は、前記第1実施例と同一であるので、ここでは再度記載せず、本実施例及び前記第1実施例の異なる箇所は、該支持部材4及び第2板体3の間は、第2毛細構造45を有し、該第2毛細構造45一側は、前記第3側31に貼付され、他側は、前記基部41に貼付され、その後、該第1板体2及び第2板体3の互いに接続する箇所に密閉溶接を行い、そのチャンバ33内に前記作動流体5を充填し、そのチャンバ33内に対して真空吸引し、密閉し、前記均温板支持体構造1に組み合わせることができ、そのうち、前記支持部材4は、前記基部41及び支持部42を直接スタンピング成形し、前記チャンバ33内は、基部41及び支持部42によりその第1板体2及び第2板体3を有効に支持すると同時に、第1毛細構造44及び第2毛細構造45により作動流体5の吸着循環の効果を達成することができ、これにより、その支持構造をスタンピング成形して製造工程時間を節減し、熱伝導効率を向上する効果を達成する以外に、従来の均温板が圧力を受けて圧縮変形するか、底部平面度が制御し難い等の問題を解決することができる。   As shown in FIGS. 4 and 5, it is a three-dimensional exploded view and a cross-sectional explanatory view of the second embodiment of the temperature equalizing plate support structure of the present invention. As shown in the figure, a part of this embodiment is shown. Since the structure is the same as that of the first embodiment, it will not be described again here. The difference between the present embodiment and the first embodiment is the difference between the support member 4 and the second plate 3. The second capillary structure 45 has one side attached to the third side 31 and the other side attached to the base 41, and then the first plate 2 and the second plate. Sealing welding is performed at locations where the bodies 3 are connected to each other, the chamber 33 is filled with the working fluid 5, the chamber 33 is vacuum sucked, sealed, and combined with the temperature equalizing plate support structure 1. Among them, the support member 4 directly stamps the base 41 and the support 42. In the chamber 33, the first plate 2 and the second plate 3 are effectively supported by the base 41 and the support 42, and at the same time, the working fluid 5 is adsorbed by the first capillary structure 44 and the second capillary structure 45. In addition to achieving the effect of circulation and thereby achieving the effect of stamping the support structure to reduce the manufacturing process time and improving the heat transfer efficiency, the conventional temperature equalizing plate is subjected to pressure. Thus, it is possible to solve problems such as compression deformation or difficulty in controlling the bottom flatness.

図6及び図7を参照し、それは、本考案の均温板支持体構造の第3実施例の立体分解図及び局部説明図であり、図に示すように、本実施例の一部の構造は、前記第1実施例と同一あるので、ここでは再度記載せず、本実施例及び前記第1実施例の異なる箇所は、前記基部41及び支持部42の相互設置位置は、変化し、本実施例において、その第1実施例一側の基部41は、外側へ向けて前記ストリップ形支持部42を延伸し、その延伸するストリップ形支持部42の一端は前記交叉網状の基部41に接続し、且つ該側の基部41の方形支持部42との間に前記通路43を形成するが、これに制限するものではなく、その基部41及び支持部42の配列設置は、スタンピン及び支持の要求に応じて設置成形されることができる。   6 and FIG. 7, which are a three-dimensional exploded view and a local explanatory view of a third embodiment of the temperature equalizing plate support structure of the present invention, and as shown in the figure, a part of the structure of this embodiment Is the same as that of the first embodiment, and will not be described again here. The difference between this embodiment and the first embodiment is that the mutual installation position of the base portion 41 and the support portion 42 is changed. In the embodiment, the base portion 41 on one side of the first embodiment extends the strip-shaped support portion 42 outward, and one end of the extending strip-shaped support portion 42 is connected to the cross-net-shaped base portion 41. The passage 43 is formed between the base portion 41 and the rectangular support portion 42 of the base 41 on the side. However, the arrangement of the base portion 41 and the support portion 42 is not limited to this. It can be installed and molded accordingly.

なお、本考案では好ましい実施例を前述の通り開示したが、これらは決して本考案に限定するものではなく、当該技術を熟知する者なら誰でも、本考案の精神と領域を脱しない均等の範囲内で各種の変動や潤色を加えることができることは勿論である。 In the present invention, preferred embodiments have been disclosed as described above, but these are not intended to limit the present invention in any way, and anyone who is familiar with the technology has an equivalent scope that does not depart from the spirit and scope of the present invention. Of course, various fluctuations and hydration colors can be added.

1 均温板支持体構造
2 第1板体
21 第1側
22 第2側
221 凹溝221
3 第2板体
31 第3側
32 第4側
33 チャンバ
4 支持部材
41 基部
42 支持部
43 通路
44 第1毛細構造
45 第2毛細構造
6 作動流体
1 soaking plate support structure 2 first plate body 21 first side 22 second side 221 concave groove 221
3 Second plate 31 Third side 32 Fourth side 33 Chamber 4 Support member 41 Base 42 Support portion 43 Passage 44 First capillary structure 45 Second capillary structure 6 Working fluid

Claims (10)

第1側及び第2側を有する第1板体と、
前記第1板体に組み付けられ、且つ第3側及び第4側を有し、該第3側及び第2側の間にチャンバを形成する第2板体と、
前記チャンバ内に設置され、基部及び複数の支持部を形成し、該支持部の間に複数の相互に連通する通路を形成する支持部材と、
を含む均温板支持体構造。
A first plate having a first side and a second side;
A second plate body assembled to the first plate body and having a third side and a fourth side, and forming a chamber between the third side and the second side;
A support member installed in the chamber, forming a base portion and a plurality of support portions, and forming a plurality of mutually communicating passages between the support portions;
Soaking plate support structure.
前記第1板体の第2側箇所に凹溝を形成し、該支持部材は、前記凹溝内に設置され、且つその支持部は、第2側方向へ延伸形成される請求項1に記載の均温板支持体構造。   The concave groove is formed in the second side portion of the first plate body, the support member is installed in the concave groove, and the support portion is extended and formed in the second side direction. Soaking plate support structure. 前記支持部及び前記第1板体間に第1毛細構造を有し、該第1毛細構造は、前記凹溝内に設置され、且つ該第1板体及び該支持部材の間に相対設置され、該第1毛細構造一側は、前記第2側に貼付され、他側は、前記支持部に貼付される請求項2に記載の均温板支持体構造。   A first capillary structure is provided between the support portion and the first plate body, and the first capillary structure is installed in the concave groove and is relatively installed between the first plate body and the support member. The temperature equalizing plate support structure according to claim 2, wherein one side of the first capillary structure is affixed to the second side, and the other side is affixed to the support part. 前記支持部材の基部は、前記第3側に貼付される請求項3に記載の均温板支持体構造。   The temperature control plate support structure according to claim 3, wherein a base portion of the support member is attached to the third side. 前記支持部材及び第2板体の間に第2毛細構造を有し、該第2毛細構造一側は、前記第3側に貼付され、他側は、前記基部に貼付される請求項3に記載の均温板支持体構造。   The second capillary structure has a second capillary structure between the support member and the second plate, and one side of the second capillary structure is affixed to the third side, and the other side is affixed to the base. The soaking plate support structure described. 前記支持部は、正方形、矩形、台形、円形又はストリップ形等の幾何形状の何れか1つを呈する請求項1に記載の均温板支持体構造。   2. The temperature equalizing plate support structure according to claim 1, wherein the support portion has any one of geometric shapes such as a square, a rectangle, a trapezoid, a circle, and a strip shape. 前記支持部は、アレイ配列を呈し、該通路は、相互に垂直に交錯配列される請求項1に記載の均温板支持体構造。   The soaking plate support structure according to claim 1, wherein the support portion has an array arrangement, and the passages are arranged in a crossing manner perpendicular to each other. 前記第1板体及び第2板体は、金属板体である請求項1に記載の均温板支持体構造。   The soaking plate support structure according to claim 1, wherein the first plate body and the second plate body are metal plate bodies. 前記第1板体及び第2板体は、銅材質、アルミ材質又は導熱が良好な導体のうちの何れか1つである請求項6に記載の均温板支持体構造。   The soaking plate support structure according to claim 6, wherein the first plate body and the second plate body are any one of a copper material, an aluminum material, and a conductor having good heat conduction. 前記チャンバ内に作動流体を充填し、該作動流体は、前記通路に流通される請求項1に記載の均温板支持体構造。   The temperature equalizing plate support structure according to claim 1, wherein the chamber is filled with a working fluid, and the working fluid flows through the passage.
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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110243216A (en) * 2018-03-09 2019-09-17 双鸿电子科技工业(昆山)有限公司 Temperature-uniforming plate and its manufacturing method
CN111750718A (en) * 2020-06-22 2020-10-09 深圳兴奇宏科技有限公司 Capillary structure of temperature-uniforming plate and temperature-uniforming plate thereof
CN111811307A (en) * 2020-08-24 2020-10-23 陈豪 Integrated 3D temperature equalization plate and manufacturing method thereof
CN113357952A (en) * 2020-03-05 2021-09-07 惠州惠立勤电子科技有限公司 Improved structure of temperature equalizing plate
CN113664206A (en) * 2020-05-15 2021-11-19 苏州铜宝锐新材料有限公司 Method for manufacturing heat transfer structure
CN113670596A (en) * 2021-09-01 2021-11-19 嵊州天脉导热科技有限公司 Forming process for degassing port of uniform-temperature plate
CN114568003A (en) * 2022-03-09 2022-05-31 嵊州天脉导热科技有限公司 Flexible connection structure of upper cover plate and lower cover plate of temperature-uniforming plate

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110243216A (en) * 2018-03-09 2019-09-17 双鸿电子科技工业(昆山)有限公司 Temperature-uniforming plate and its manufacturing method
CN110243216B (en) * 2018-03-09 2024-06-07 双鸿电子科技工业(昆山)有限公司 Temperature equalizing plate and manufacturing method thereof
CN113357952A (en) * 2020-03-05 2021-09-07 惠州惠立勤电子科技有限公司 Improved structure of temperature equalizing plate
CN113664206A (en) * 2020-05-15 2021-11-19 苏州铜宝锐新材料有限公司 Method for manufacturing heat transfer structure
CN111750718A (en) * 2020-06-22 2020-10-09 深圳兴奇宏科技有限公司 Capillary structure of temperature-uniforming plate and temperature-uniforming plate thereof
CN111811307A (en) * 2020-08-24 2020-10-23 陈豪 Integrated 3D temperature equalization plate and manufacturing method thereof
CN113670596A (en) * 2021-09-01 2021-11-19 嵊州天脉导热科技有限公司 Forming process for degassing port of uniform-temperature plate
CN113670596B (en) * 2021-09-01 2024-03-15 嵊州天脉导热科技有限公司 Gas removal port forming process for temperature-equalizing plate material
CN114568003A (en) * 2022-03-09 2022-05-31 嵊州天脉导热科技有限公司 Flexible connection structure of upper cover plate and lower cover plate of temperature-uniforming plate

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